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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

Probes for bacterial ion channels

Swallow, Isabella Diane January 2014 (has links)
Using three complementary approaches, this work sought to tackle the widespread problem of antibiotic resistance. To circumvent the resistance mechanisms developed by bacteria, it is necessary to establish drug candidates that act on novel therapeutic targets, such as the ion channels used by bacteria to modulate homeostasis. Examples include the potassium efflux channel, Kef, and the mechanosensitive channel of small conductance, MscS, which are not found in humans. How these targets function must be well understood before drug candidates can be developed, as such, their identification and investigation is often accompanied by the evolution of the analytical techniques used to study them. Membrane protein mass spectrometry is one technique showing potential in the study of ion channels. However, spectra can be clouded by the detergents used to solubilise ion channels from their native membranes. Undertaken herein was the synthesis of some fluorescent glycolipid detergents, which it was hypothesised could be encouraged to dissociate from ion channels via laser-induced excitation within the gas phase of a mass spectrometer, thereby improving the clarity with which spectra can be obtained. For Kef, an unconfirmed mechanism of action had previously been proposed. To explore the suggestion that sterically-demanding central residues are important for channel activation, solid phase peptide synthesis was used to isolate three tripeptide analogues of N-ethylsuccinimido glutathione, a known activator with a high affinity for Kef. A competition fluorescence assay suggested these tripeptides bound to Kef with an affinity lower than predicted, allowing the conclusion that a more detailed assessment of the steric bulk required for activation was necessary before a mechanism of action could be confirmed. Lysophosphatidylcholine has been shown to activate MscS, although it is not known how. Affinity chromatography between MscS and lysophosphatidylcholine was proposed as a means by which specific binding interactions could be investigated. For this technique an amino-derivative of lysophosphatidylcholine was necessary and its challenging synthesis is also detailed herein.
42

Development of small molecule inhibitors of the bromodomain-histone interaction

Rooney, Timothy Patrick Christopher January 2014 (has links)
Bromodomains bind to acetylated lysine residues 1 to mediate a wide range of biological processes, including the assembly of transcriptional machinery at modified histones. This thesis describes the design of small molecule inhibitors of bromodomains, with particular focus on the bromodomain of CREBBP. A fragment based approach was employed to investigate bicyclic amides as acetyl lysine mimics. Initially the benzoxazinone scaffold (BNZ) 2 was shown to be a novel, ligand efficient bromodomain inhibitor. Structure based elaboration of the BNZ scaffold was employed to direct substitutions towards the region of CREBBP with greatest variability compared to other bromodomains. Ultimately, the compounds in this series were limited to micromolar affinity for CREBBP, but provided useful structure activity relationships. Subsequently the dihydroquinoxalinone scaffold (DHQN) 3 was also shown to be a novel acetyl lysine mimic. Attachment of the optimum side group identified in the BNZ series led to the discovery of the first sub micromolar inhibitor of CREBBP. A co crystal structure with CREBBP revealed that the side group of this compound bound in a newly identified induced fit pocket, mediated by a cation π interaction. A combination of structural, functional and computational studies confirmed that the cation π interaction contributed significantly towards the binding affinity of these ligands. Further work to elaborate the DHQN core, or develop an alternative acetyl lysine mimic into a CREBBP inhibitor, did not lead to an improvement. However, the optimum compound 4 was shown to displace CREBBP from chromatin in a cell based assay. Overall, cyclic amide based fragments were developed as CREBBP inhibitors, providing some of the first bromodomain ligands with nanomolar affinity outside of the BET family. In the process, key structural information about binding of ligands to CREBBP was revealed. Compound 4 provides a tool with which to study the biological implications of aberrant CREBBP activity and to investigate the therapeutic potential of bromodomain inhibition.
43

Methodology for the synthesis of NP25302 and other bioactive natural products

Stevens, Kiri January 2011 (has links)
Total synthesis of the pyrrolizidine alkaloid NP25302: (+)-NP25302 is an unusual vinylogous urea containing pyrrolizidine alkaloid shown to exhibit cell adhesion inhibition. It was envisaged that this natural product could be accessed by a novel 5-endo-dig cyclisation to construct the pyrrolizidine core, and a Curtius rearrangement to install the vinylogous urea motif. This methodology was first tested on a model system, furnishing nor-NP25302 from L-proline in 12 steps and 9% overall yield. The total synthesis of (±)-NP25302 was completed in 9 steps and 26% overall yield from ethyl 2-nitropropionate using similar methodology. Studies into the stereospecificity of the Au(I)-catalysed cyclisation of monoallylic diols: During the synthesis of (+)-isoaltholactone in the Robertson group, the key Au(I)-catalysed cyclisation was observed to occur with some stereospecificity. Further investigations were therefore conducted into the stereochemical outcome of this reaction using stereodefined allylic alcohols, and from the combined results a mnemonic was proposed to predict the stereochemistry of the products of this reaction. Studies into the total synthesis of ascospiroketals A and B: Investigations were conducted into the total synthesis of the recently isolated natural products ascospiroketals A and B. A second generation synthesis was used to construct advanced intermediates 1 and 2.
44

Supramolecular control of synthesis and electronic structure of porphyrin oligomers

Sprafke, Johannes Klaus January 2011 (has links)
The work described in this thesis demonstrates the use of supramolecular chemistry in the template-directed synthesis of porphyrin nanorings and as a tool to control conformation and topology of π-conjugated porphyrin oligomers. Particular emphasis is placed on changes to the electronic structure of these oligomers depending on their conformation. Chapter 1 gives an overview of π-conjugated porphyrin oligomers and conjugated macrocycles in general, followed by an introduction into supramolecular cooperativity and small angle X-ray scattering in solution. Chapter 2 describes advances in the synthesis, solution structure elucidation and optoelectronic properties of a fully conjugated cyclic porphyrin hexamer. The high rigidity and symmetry of this nanoring as well as its bent π-system lead to a significant decrease in its HOMO-LUMO gap. The resulting near-infrared emission was exploited in the fabrication of light emitting diodes, demonstrating the use of a bent topology for minimizing aggregation in thin films. The synthesis of a [12]porphyrin nanoring using a hexadentate template is presented in Chapter 3. The concept of Vernier templating is introduced as a general strategy for the synthesis of large monodisperse macrocycles. The nanoring is characterized and its cooperative binding to two template molecules is studied. In Chapter 4 a bidentate ligand is used in the cooperative formation of a sandwich complex beween two nanorings. Chapter 5 provides an analysis of the rigidity of the butadiyne linked porphyrin oligomers used throughout this thesis. A linear chain is significantly more flexible in solution than on a surface where it is confined within two dimensions. Analysis of the persistence length indicates that a porphyrin nanoring with more than around 20 units would not be significantly strained. The supramolecular binding of linear porphyrin oligomers to carbon nanotubes is analyzed in Chapter 6. The binding strength increases sharply with oligomer length and binding is strongest with (8,6) and (7,5) tubes. The energy level alignment in these porphyrin CNT complexes appears to be favorable for an application in photovoltaics. In Chapter 7 bisamidine-carboxylate salt bridges together with zinc-nitrogen coordination chemistry are used to access a variety of topologies in assemblies based on carboxylic acid functionalized porphyrin dimers.
45

Exploring and exploiting selectivity in rhodium-catalysed hydroacylation reactions

Poingdestre, Sarah-Jane January 2012 (has links)
Chapter 1 is an overview of the key developments in rhodium-catalysed hydroacylation. The main focus of this chapter is the use of various chelation strategies for the stabilisation of key rhodium-acyl intermediates. In addition, the more recent emergence of regioselective hydroacylation processes has been highlighted. Chapter 2 discloses the branched-selective intermolecular hydroacylation of 1,3-dienes and S-chelating aldehydes to afford synthetically useful 1,5-dione products. The evaluation of a number of different phosphine ligands for this process identifies a correlation between ligand bite angle and reaction regioselectivity. Chapter 3 discusses the development of a linear-selective hydroacylation process for previously challenging alkyne substrates. This, in combination with a complementary branched-selective process, provides a ligand-controlled regioselectivity switch between the branched and linear pathways. Finally, Chapter 4 details efforts towards the development of multicomponent, tandem processes through exploitation of our synthetically useful branched hydroacylation adducts.
46

Chiral counter-ion controlled asymmetric electrocyclic reactions

Knipe, Peter Clarke January 2012 (has links)
The aim of this project was to develop new catalytic methods to control asymmetry in electrocyclic reactions, and to apply these methods to generate complex molecules. Initial efforts were directed towards the catalysis of anionic 8π electrocyclizations (Chapter 2 and Figure i). 8π electrocyclization was not achieved due to issues with alkene geometry and anion stability. Our efforts were then directed towards using phase-transfer catalysis to generate complex polycyclic compounds via a cascade electrocyclization-1,4-addition (Chapter 3 and Figure ii). Pyrrolidines and indolizidines were generated in excellent yield from simple starting-materials with high levels of stereocontrol. Finally, we investigated the catalysis of a 6π [1,6] electrocyclization to generate dihydroquinolones (Chapter 4 and Figure iii). A novel BINOL-derived copper(II) catalyst was developed, and afforded dihydroquinolones directly from their amine and aldehyde precursors with good yields and enantioselectivities.
47

Synthesis of the ABC fragment of pectenotoxin-4

Lipinski, Radoslaw Michal January 2012 (has links)
This thesis details the application of two synthetic methodologies, developed by the Donohoe group, to the synthesis of the ABC fragment of pectenotoxin-4, a macrolide marine natural product that consists of 19 stereogenic centres, three tetrahydrofuran rings, one spiroketal and one bicyclic ketal embedded within a 26-membered macrocycle. Pivotal to the developed synthetic route was the utilisation of an unprecedented cascade osmium catalysed oxidative cyclisation for the construction of two THF rings (the BC ring system). After successfully developing a model system for the synthesis of the AB anomeric 6,5 spiroketal, which involved the employment of a hydride shift initiated oxo carbenium ion formation followed by intramolecular spiroketalisation, the developed system was then applied to the fully elaborated synthesis of the ABC fragment. The synthesis of the ABC fragment of pectenotoxin-4 was completed in 20 linear steps, with an overall yield of 3.3%.
48

Rhodium catalysed hydroacylation reactions in the synthesis of heterocycles

Ylioja, Paul M. January 2011 (has links)
Rhodium-catalysed hydroacylation provides a highly atom economic synthesis of ketone products from the combination of aldehydes and multiple bond systems by C-H bond activation. This work evaluates the combination of intermolecular hydroacylation for the synthesis of classical heterocycle precursors and their dehydrative cyclisation to give rise to a range of substituted heterocyclic compounds. Chapter 1 outlines recent developments in the chemistry of hydroacylation. Particular attention is paid to the various chelation strategies employed in intermolecular hydroacylation. Chapter 2 discusses some relevant and recent developments in the field of pyridine and pyrrole synthesis. Having established that β-sulphur chelation controlled hydroacylation can be used to synthesise pyridines in Chapter 3; attention was turned to hydroacylation of propargyl amines in Chapter 4. The methodology was expanded to provide a synthesis of γ-amino enones. The hydroacylation reaction and cyclisation is combined in a procedure that utilises thermal Boc-deprotection and cyclisation to give a range of highly-substituted pyrroles. The regioselectivity of the hydroacylation of propargyl amines is investigated in Chapter 5 by application of statistical Design of Experiments methodology. Optimised conditions were identified with minor improvements in the selectivity of the reaction.
49

Isoenzyme specific PFK-2/FBPase-2 inhibition as an anti-cancer strategy

Williams, Jonathan Glyn January 2013 (has links)
High aerobic glycolytic capacity is correlated with poor prognosis and increased tumour aggressiveness. 6Phosphofructo-1-kinase catalyses the first irreversible step of glycolysis, and is activated by fructose-2,6-bisphosphate, a product of the kinase activity of four bifunctional isoenzymes, 6-phosphofructo-2-kinase/fructose-2,6-biphosphatase (PFK-2/FBPase-2:PFKFB1-4). These are potential anti-tumour targets, but their individual and collective role requires further investigation. This thesis had three aims; to validate the PFK-2/FBPase-2 isoenzymes as anti-cancer targets, to investigate the requirement for isoenzyme-specific targeting, and to initiate assay development, enabling future identification of novel inhibitors. A panel of cancer cell lines was examined and PFKFB3 and PFKFB4 were confirmed to be the most strongly induced isoenzymes in hypoxia, regulated by HIF-1&alpha;. Basal and hypoxic relative PFKFB3/PFKFB4 expression varied markedly, and three cell lines with varying expression ratios (MCF-7, U87, PC3) were selected for further study. siRNA knockdown of each isoenzyme individually, markedly reduced 2D and 3D cell growth. The effect of PFKFB3 knockdown was consistently more pronounced, particularly in hypoxia. Double PFKFB3/PFKFB4 knockdown was significantly less effective than PFKFB3 knockdown alone. Direct antagonism of PFKFB3 and PFKFB4 on F-2,6-BP concentration was observed, with PFKFB3 exhibiting high kinase activity, as anticipated, and PFKFB4 exhibiting high bisphosphatase activity. The degree of antagonism was dependent on the relative PFKFB3/PFKFB4 expression ratio. Extensive efforts were made to examine the wider metabolic effect of PFKFB3/PFKFB4 on flux towards glycolysis or the pentose phosphate pathway (PPP), including using metabolite, lipid droplet, <sup>13</sup>C NMR and mass spectrometry assays. No significant change in metabolic flux was detected, the evidence presented therefore suggesting the impact of the antagonistic effects of the isoenzymes on [F-2,6-BP] extends beyond regulation of metabolic flux alone. This study concluded that the most effective therapeutic strategy will be one that involves a PFKFB3-specific inhibitor, preferably hypoxia-targeted. Accordingly, steps were taken to validate and optimise a robust medium-throughput assay system.
50

Synthetic Studies on Palladium-Catalyzed Olefin Dioxygenation, Indole Functionalization, and Helical Ligands

Antonic, Marija 15 December 2009 (has links)
Palladium-catalyzed olefin dioxygenation is a powerful tool in the generation of complex and valuable substrates, one which may become complimentary to the well known Sharpless dihydroxylation. In this work the mechanism of this transformation is examined via reaction kinetics and Hammett studies, which corroborate a PdII/IV catalytic cycle and suggest that the rate determining step is the oxidation of PdII to PdIV. Olefin dioxygenation was also found to proceed in the presence of catalytic quantities of BF3•OEt2 or triflic acid, with stoichiometric hypervalent iodine oxidant and an acetic acid solvent. Furthermore, asymmetric variants of intramolecular palladium-catalyzed olefin dioxygenation were also investigated, which resulted in the formation of tetrahydrofuran products in up to 36% ee. Next, chelate-assisted C–H bond functionalization of indoles at the C7 position and of carbazoles at the C1 position was investigated with a variety of arylation, halogenation and oxygenation techniques. Lastly, our efforts towards the synthesis of a mono-phosphine based [5]helicene ligand via olefin metathesis and photocyclization strategies will be discussed.

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